ALGEBRA II Name _______________________________
SUMMER REVIEW PACKET
1
All students going into Algebra 2 in the fall are expected to have a solid understanding of the topics covered in
this packet. This includes topics covered in Algebra 1 and Geometry. It is highly suggested that students spend
some time completing these problems over the summer to ensure they enter Algebra 2 with these concepts.
We will review the concepts contained in this packet during the first few days of class. Following this review,
students will be assessed on the material covered in this packet. The assessment will be graded for accuracy
and will be part of the first marking period grade.
Students may use online resources such as Khan Academy Videos (www.khanacademy.com) to assist in
learning the topics that they are finding difficult. Video links have been placed throughout the text for
additional help with each topic.
Section I: Vocabulary
Fill in each blank with the correct term. Pick a word or expression from the list provided.
irrational
coefficient
factor
function
quadratic
rational
domain
x-intercept
y-intercept
range
1. A number that multiplies a variable or variables in an expression is called a .
2. Each expression that is multiplied together to form a product is called a .
3. A __________________ expression is a polynomial with the highest exponent of 2.
4. The set of numbers contains any number that can be written as a ratio of two integers.
5. Any number that cannot be written as a fraction and does not have a terminating or repeating decimal is a
______________________________ .
6. A special relation where each input has exactly one output is called a ____________________ .
7. The represents the point on the vertical axis and also describes the initial amount of a
function.
8. Any coordinate pair that has a y-coordinate of zero represents a(n) __________________________ of the graph.
9. The _______________________ of a function is the set of possible x-values or inputs for the function.
10. The _______________________ of a function is the set of possible y-values or outputs for the function.
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Section II: Solving Multi-Step Equations
Directions: Solve the following equations. Check your solutions.
11. 9 −4
5(𝑢 − 3) = 1 12. −
3
2(𝑑 − 2) = 21
Steps for solving multi-step equations
1. Simplify each side of the equation first. To do this, you may want to eliminate fractions or decimals,
combine like terms, or use the distributive property to eliminate parenthesis.
2. Get all variables on one side and all numbers on the other side.
3. Isolate the variable using an inverse operation.
Solving for a Variable
Solving for a single variable is just like solving an equation, by isolating the variable you are solving for using
inverse operations. Remember your answer will have other variables in it.
Use these videos as a resource if you need to review these topics:
Solving a Multi-step Equation Example Problem: https://www.khanacademy.org/math/cc-eighth-grade-math/cc-8th-
solving-equations/cc-8th-equations-distribution/v/equation-special-cases
Eliminating Fractions: https://www.khanacademy.org/math/cc-eighth-grade-math/cc-8th-solving-equations/cc-8th-
equations-distribution/v/solving-equations-with-the-distributive-property-2
Solving for a Variable Example Problem: https://www.khanacademy.org/math/algebra/solving-linear-equations-and-
inequalities/solving_for_variable/v/solving-for-a-variable
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13. 4(𝑎 + 2) = 14 − 2(3 − 2𝑎) 14. 2(𝑔 − 2) − 4 = 2(𝑔 − 3)
15. 2𝑥 +2
3(4 − 𝑥) =
1
6(4𝑥 + 5) +
9
2 16.
5
2𝑡 − 𝑡 = 3 +
3
2𝑡
Directions: Solve each equation for the given variable:
17. Solve for y: 3𝑥 − 4𝑦 = 24 18. Solve for t: PrA P t
4
Section III: Functions
Directions: Determine the Domain and Range of each relation. Then state whether the relation is a
function.
19. {(−4,6), (3,6), (7, −9), (8, 1)}
Domain: ____________________
Range: ____________________
Function? ___________________
20. {(−4,6), (3,8), (6,4), (3, −9), (5, 7)}
Domain: ____________________
Range: ____________________
Function? ___________________
Directions: Use the vertical line test to determine if each relation is a function.
21. 22.
x
(input) Function Machine 𝑓(𝑥)
(output)
Function Vocabulary
Relation – A relation is a pairing of inputs and outputs and is often represented as a set of points (𝑥, 𝑦).
Domain – the set of x-values in a given relation, also known as the inputs.
Range – the set of y-values in a given relation, also known as the outputs.
Function – a special relation where each input has exactly one output.
Vertical Line Test – states that if you can draw a vertical line through more than one point on a given
graph, then the relation is not a function.
Examples: (a) Given the relation {(6, 5), (4,3), (6, 4), (5, 8)}
Domain: {4, 5, 6} Range: {3, 4, 5, 8}
This relation is not a function because the input 6 has two outputs, 4 and 5
(b) Given the relation {(1, 1), (2, −3), (3, 0), (4, 1)}
Domain: {1, 2, 3, 4} Range: {-3, 0, 1}
This relation is a function because every input has exactly one output.
Use these videos as a resource if you need to review these topics:
Functions https://www.khanacademy.org/math/algebra/algebra-functions
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Directions: Evaluate the function at the given value.
23. If 𝑓(𝑥) = −𝑥2 − 2𝑥 + 7, evaluate 𝑓(1). 24. If 𝑓(𝑥) = 5𝑥2 − 5𝑥 + 7, evaluate 𝑓 (1
2).
25. If 𝑓(𝑥) = 𝑥2 − 3𝑥 + 2, evaluate 𝑓(−3).
26. If 𝑓(𝑥) = −5𝑥 + 11 𝑎𝑛𝑑 𝑓(𝑛) = 21, find the
value of n.
Directions: Find the domain and range of the functions represented by the graphs below.
Remember… the domain is the set of x-values in a given relation, also known as the inputs.
and the range is the set of y-values in a given relation, also known as the outputs.
27. Fill in the blanks to identify the domain and range of the graph.
Domain: ______ < 𝑥 ≤ ______
Range: ______ ≤ 𝑦 < ______
28. Find the domain and range of the graph to the right.
Domain :
Range:
x
y
x
y
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Section IV: Linear Functions
29. What is a linear function?
30. Graph the following , list the domain and range and determine which one is a function:
a) y = 4 b) x = -2 c) y = 2x + 4
Function? _________ Function? _________ Function? _________
Domain: ___________ Domain: ___________ Domain: __________
Range: _____________ Range: _____________ Range: ___________
31. Find the equation of a line that contains the points (5, -1) and (7, -2).
x
y
x
y
x
y
Three Forms of a Linear Equation Slope
Standard Form: 𝑎𝑥 + 𝑏𝑦 = 𝑐 Given two points: 𝑚 =𝑦2−𝑦1
𝑥2−𝑥1
Slope-Intercept Form: 𝑦 = 𝑚𝑥 + 𝑏 Graphically 𝑠𝑙𝑜𝑝𝑒 =𝑟𝑖𝑠𝑒
𝑟𝑢𝑛
Point-Slope Form: (𝑦 − 𝑦1) = 𝑚(𝑥 − 𝑥1)
Need additional help?
Check out videos here https://www.khanacademy.org/math/algebra/two-var-linear-equations
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32. Transform y = 2
3 x - 4 in standard form.
33. Use point-slope form to find the equation of a line in standard form with slope = ¼ and point (8, -2) and give
your answer in standard form.
34. Find the equation of a line that generates the following data :
35. Give the equation of a horizontal line that contains the point (-3, 5).
36. Give the equation of a vertical line that contains the point (-3, 5).
x y
2 8
3 12
4 16
5 20
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37. Find the slope of the line with the following equations:
a) 4x – 5y = 12 b) y = 7 c) x = 0
38. Write an equation of a line in standard form that has a slope of 5
4.
39. Find the equation of a line that is parallel to 2x – 5y =11 and contains the point (7, 9).
40. Find the equation of a line that is perpendicular to 𝑦 =5
4𝑥 + 4 that contains the point (-6, 5).
41. Graph the equations
a) 𝑦 = −2
3 𝑥 + 2 b) 9x – 3y = 6
x
y
x
y
9
42. John left his equation in point slope form and got y + 3 = 4 (x – 2). What are the coordinates of the point
and slope that he used to write the equation?
43. What are the equations of the lines graphed?
a) b) c)
x
y
x
y
x
y
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Section V: Quadratic Functions
44. Identify the vertex and axis of symmetry given the quadratic equation: 𝑦 = −𝑥2 − 8𝑥 − 15.
45. Identify the vertex and axis of symmetry of the parabola given by the equation: 6252 xy
46. Factor 1032 xx
47. Factor 8103 2 xx
48. Factor x2 – 100
49. Factor 2452 xx
The vertex form of a quadratic equation is khxy 2
.
The vertex of this parabola is (h, k).
The axis of symmetry is x = h
The standard form of a quadratic equation is y = ax2 + bx + c = 0.
The axis of symmetry is a
bx
2
Additional help https://www.khanacademy.org/math/algebra/quadratics#features-of-quadratic-functions
The following websites may be helpful for factoring.
https://www.khanacademy.org/math/algebra/multiplying-factoring-expression/factoring-special-
products/e/factoring_difference_of_squares_1
https://www.youtube.com/watch?v=AMEau9OE6Bs
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50. Find the discriminant and determine how many real solutions the equation has: 0123 2 xx
51. Find the discriminant and determine how many real solutions the equation has: xxx 3152
52. Solve 9x2 – 4 = 0.
53. Solve 0168 2 xx .
Quadratic Formula: a
acbbx
2
42
For more on solving quadratic equations, you may visit the following web-site.
https://www.khanacademy.org/math/algebra/quadratics/quadratics-square-root/v/solving-quadratic-
equations-by-square-roots
The discriminant of a quadratic equation is d = b2 – 4ac.
To determine the number of solutions: d > 0 → two real solutions
d = 0 → one real solution
d < 0 → no real solutions
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Section VI: Properties of Exponents
True or False: Write “true” if the statement is true. If the statement is false, write “false” and correct the statement so that it becomes true. Assume all variables represent non-zero real numbers.
54. 10 x
55. 65 xxx
56. 2
1
10
5
xx
x
57. 3626 xx
58. 255 2
Fundamental Properties of Exponents
Let a and b be real numbers, and let m and n be integers:
Zero Exponent Property: 𝒂𝟎 = 1 𝑖𝑓 𝒂 ≠ 𝟎
Negative Exponent Property: 𝒂−𝒎 = 𝟏
𝒂𝒎 𝒊𝒇 𝒂 ≠ 𝟎
Product of Powers Property: 𝒂𝒎 ∙ 𝒂𝒏 = 𝒂𝒎+𝒏
Quotient of Powers Property: 𝒂𝒎
𝒂𝒏 = 𝒂𝒎−𝒏
Power of a Product Property: (𝒂𝒃)𝒎 = 𝒂𝒎𝒃𝒎
Power of a Quotient Property: (𝒂
𝒃)
𝒎
= 𝒂𝒎
𝒃𝒎 𝒊𝒇 𝒃 ≠ 𝟎
Power of a Power Property: (𝒂𝒎)𝒏 = 𝒂𝒎𝒏
1. How does the exponent work with the base value?
2. Why must negative bases be written within parentheses for the exponent to apply correctly?
3. How can Order of Operations guide shortcuts to applying the properties?
Applying Properties of Exponents
Remember that bases must be the same in order to apply the properties. Simplifying exponential expressions
can be done when the expressions are being multiplied, divided, powered or rooted. Never attempt to apply
exponential properties involving addition or subtraction of terms!! This will violate order of operations!
Use these videos as a resource if you need to review these topics:
Exponent Properties 1: https://www.youtube.com/watch?v=8htcZca0JIA
Exponent Properties 2: https://www.youtube.com/watch?v=1Nt-t9YJM8k
P
E
R
M
D
A
S
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Tell whether the number is positive or negative before simplifying. Then simplify the numerical
expression.
59. -24 __________
60. (-2)4 __________
61. -(-7)5 __________
62. (-9)3 __________
Simplify and evaluate each power:
63. 43
x 64. 46 825 xx 65.
3
4
x
66. 42
8
)2(
2x
x 67.
4
23
18
35
x
xx 68. 264 yx
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Section VII: Radical Expressions
Part 1: Simplify each radical below:
69. √24 70. √200
71. √180
72. √50𝑥2 73. √98𝑘 74. √16𝑥3𝑦
Simplifying and Rationalizing of Radicals:
Part #1: Simplifying Radicals In math, when we ask for an “exact answer,” this means that your answer MAY include a radical sign.
Example: √7 is an exact answer
2.645751311 (which the calculator gives you when you enter √7) is NOT EXACT. It is rounded to whatever fits on your calculator screen
When we simplify radicals we try to factor out the LARGEST perfect square factor possible. Perfect Squares: 0, 1, 4, 9, 16, 25, 36, 49, 64, 81, 100, 121, 144, 169, 196, 225, 256, 289, 324, 361, 400 Examples:
√40 = √4 ∗ √10 = 2√10 √160 = √16 ∗ √10 = 4√10
Part #2: Simplifying Radicals No radicals in the denominator of a fraction.
You can NOT have a radical in the denominator of a fraction that cannot be simplified because it is
an irrational number. So you have to “RATIONALIZE” it to make it “normal” or RATIONAL.
Examples:
2
√5
∗√5
∗√5=
2√5
5
3
2√7
∗√7
∗√7=
3√7
2(7)=
3√7
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Use these videos as a resource if you need to review these topics:
Simplifying radicals: https://www.youtube.com/watch?v=6QJtWfIiyZo
Rationalizing the denominator: https://www.youtube.com/watch?v=gY5TvlHg4Vk